[Neural mechanisms of fear responses to emotional stimuli: a preliminary study combining early posterior negativity and electroencephalogram source network analysis].

Qian Zang, Xiaoming Zhao, Tie Liang, Xiuling Liu, Cunguang Lou
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Abstract

Fear emotion is a typical negative emotion that is commonly present in daily life and significantly influences human behavior. A deeper understanding of the mechanisms underlying negative emotions contributes to the improvement of diagnosing and treating disorders related to negative emotions. However, the neural mechanisms of the brain when faced with fearful emotional stimuli remain unclear. To this end, this study further combined electroencephalogram (EEG) source analysis and cortical brain network construction based on early posterior negativity (EPN) analysis to explore the differences in brain information processing mechanisms under fearful and neutral emotional picture stimuli from a spatiotemporal perspective. The results revealed that neutral emotional stimuli could elicit higher EPN amplitudes compared to fearful stimuli. Further source analysis of EEG data containing EPN components revealed significant differences in brain cortical activation areas between fearful and neutral emotional stimuli. Subsequently, more functional connections were observed in the brain network in the alpha frequency band for fearful emotions compared to neutral emotions. By quantifying brain network properties, we found that the average node degree and average clustering coefficient under fearful emotional stimuli were significantly larger compared to neutral emotions. These results indicate that combining EPN analysis with EEG source component and brain network analysis helps to explore brain functional modulation in the processing of fearful emotions with higher spatiotemporal resolution, providing a new perspective on the neural mechanisms of negative emotions.

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[对情绪刺激的恐惧反应的神经机制:结合早期后负性和脑电图源网络分析的初步研究]。
恐惧情绪是一种典型的负面情绪,它普遍存在于日常生活中,并对人类行为产生重大影响。深入了解负面情绪的内在机制有助于改善与负面情绪相关疾病的诊断和治疗。然而,面对恐惧情绪刺激时大脑的神经机制仍不清楚。为此,本研究进一步结合脑电图(EEG)信号源分析和基于早期后负性(EPN)分析的皮层脑网络构建,从时空角度探讨了恐惧情绪和中性情绪图片刺激下大脑信息处理机制的差异。结果发现,与恐惧刺激相比,中性情绪刺激能引起更高的 EPN 振幅。对包含 EPN 成分的脑电图数据进行进一步源分析后发现,恐惧和中性情绪刺激在大脑皮层激活区域上存在显著差异。随后,与中性情绪相比,在恐惧情绪的α频段大脑网络中观察到了更多的功能连接。通过量化脑网络特性,我们发现恐惧情绪刺激下的平均节点度和平均聚类系数明显大于中性情绪。这些结果表明,将 EPN 分析与脑电图源成分和脑网络分析相结合,有助于以更高的时空分辨率探索恐惧情绪处理过程中的脑功能调制,为研究负性情绪的神经机制提供了新的视角。
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来源期刊
生物医学工程学杂志
生物医学工程学杂志 Medicine-Medicine (all)
CiteScore
0.80
自引率
0.00%
发文量
4868
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